[deliverable/binutils-gdb.git] / gdb / common / array-view.h

/* Copyright (C) 2017-2018 Free Software Foundation, Inc.

   This file is part of GDB.

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 3 of the License, or
   (at your option) any later version.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program.  If not, see <http://www.gnu.org/licenses/>.  */

#ifndef COMMON_ARRAY_VIEW_H
#define COMMON_ARRAY_VIEW_H

#include "traits.h"
#include <type_traits>

/* An array_view is an abstraction that provides a non-owning view
   over a sequence of contiguous objects.

   A way to put it is that array_view is to std::vector (and
   std::array and built-in arrays with rank==1) like std::string_view
   is to std::string.

   The main intent of array_view is to use it as function input
   parameter type, making it possible to pass in any sequence of
   contiguous objects, irrespective of whether the objects live on the
   stack or heap and what actual container owns them.  Implicit
   construction from the element type is supported too, making it easy
   to call functions that expect an array of elements when you only
   have one element (usually on the stack).  For example:

    struct A { .... };
    void function (gdb::array_view<A> as);

    std::vector<A> std_vec = ...;
    std::array<A, N> std_array = ...;
    A array[] = {...};
    A elem;

    function (std_vec);
    function (std_array);
    function (array);
    function (elem);

   Views can be either mutable or const.  A const view is simply
   created by specifying a const T as array_view template parameter,
   in which case operator[] of non-const array_view objects ends up
   returning const references.  Making the array_view itself const is
   analogous to making a pointer itself be const.  I.e., disables
   re-seating the view/pointer.

   Since array_view objects are small (pointer plus size), and
   designed to be trivially copyable, they should generally be passed
   around by value.

   You can find unit tests covering the whole API in
   unittests/array-view-selftests.c.  */

namespace gdb {

template <typename T>
class array_view
{
  /* True iff decayed T is the same as decayed U.  E.g., we want to
     say that 'T&' is the same as 'const T'.  */
  template <typename U>
  using IsDecayedT = typename std::is_same<typename std::decay<T>::type,
					   typename std::decay<U>::type>;

  /* True iff decayed T is the same as decayed U, and 'U *' is
     implicitly convertible to 'T *'.  This is a requirement for
     several methods.  */
  template <typename U>
  using DecayedConvertible = gdb::And<IsDecayedT<U>,
				      std::is_convertible<U *, T *>>;

public:
  using value_type = T;
  using reference = T &;
  using const_reference = const T &;
  using size_type = size_t;

  /* Default construction creates an empty view.  */
  constexpr array_view () noexcept
    : m_array (nullptr), m_size (0)
  {}

  /* Create an array view over a single object of the type of an
     array_view element.  The created view as size==1.  This is
     templated on U to allow constructing a array_view<const T> over a
     (non-const) T.  The "convertible" requirement makes sure that you
     can't create an array_view<T> over a const T.  */
  template<typename U,
	   typename = Requires<DecayedConvertible<U>>>
  constexpr array_view (U &elem) noexcept
    : m_array (&elem), m_size (1)
  {}

  /* Same as above, for rvalue references.  */
  template<typename U,
	   typename = Requires<DecayedConvertible<U>>>
  constexpr array_view (U &&elem) noexcept
    : m_array (&elem), m_size (1)
  {}

  /* Create an array view from a pointer to an array and an element
     count.  */
  template<typename U,
	   typename = Requires<DecayedConvertible<U>>>
  constexpr array_view (U *array, size_t size) noexcept
    : m_array (array), m_size (size)
  {}

  /* Create an array view from a range.  This is templated on both U
     an V to allow passing in a mix of 'const T *' and 'T *'.  */
  template<typename U, typename V,
	   typename = Requires<DecayedConvertible<U>>,
	   typename = Requires<DecayedConvertible<V>>>
  constexpr array_view (U *begin, V *end) noexcept
    : m_array (begin), m_size (end - begin)
  {}

  /* Create an array view from an array.  */
  template<typename U, size_t Size,
	   typename = Requires<DecayedConvertible<U>>>
  constexpr array_view (U (&array)[Size]) noexcept
    : m_array (array), m_size (Size)
  {}

  /* Create an array view from a contiguous container.  E.g.,
     std::vector and std::array.  */
  template<typename Container,
	   typename = Requires<gdb::Not<IsDecayedT<Container>>>,
	   typename
	     = Requires<std::is_convertible
			<decltype (std::declval<Container> ().data ()),
			 T *>>,
	   typename
	     = Requires<std::is_convertible
			<decltype (std::declval<Container> ().size ()),
			 size_type>>>
  constexpr array_view (Container &&c) noexcept
    : m_array (c.data ()), m_size (c.size ())
  {}

  /* Observer methods.  Some of these can't be constexpr until we
     require C++14.  */
  /*constexpr14*/ T *data () noexcept { return m_array; }
  constexpr const T *data () const noexcept { return m_array; }

  /*constexpr14*/ T *begin () noexcept { return m_array; }
  constexpr const T *begin () const noexcept { return m_array; }

  /*constexpr14*/ T *end () noexcept { return m_array + m_size; }
  constexpr const T *end () const noexcept { return m_array + m_size; }

  /*constexpr14*/ reference operator[] (size_t index) noexcept
  { return m_array[index]; }
  constexpr const_reference operator[] (size_t index) const noexcept
  { return m_array[index]; }

  constexpr size_type size () const noexcept { return m_size; }
  constexpr bool empty () const noexcept { return m_size == 0; }

private:
  T *m_array;
  size_type m_size;
};

/* Compare LHS and RHS for (deep) equality.  That is, whether LHS and
   RHS have the same sizes, and whether each pair of elements of LHS
   and RHS at the same position compares equal.  */

template <typename T>
bool
operator== (const gdb::array_view<T> &lhs, const gdb::array_view<T> &rhs)
{
  if (lhs.size () != rhs.size ())
    return false;

  for (size_t i = 0; i < lhs.size (); i++)
    if (!(lhs[i] == rhs[i]))
      return false;

  return true;
}

/* Compare two array_views for inequality.  */

template <typename T>
bool
operator!= (const gdb::array_view<T> &lhs, const gdb::array_view<T> &rhs)
{
  return !(lhs == rhs);
}

} /* namespace gdb */

#endif
Commit	Line	Data
e2882c85	1	/* Copyright (C) 2017-2018 Free Software Foundation, Inc.
7c44b49c PA	2
	3	This file is part of GDB.
	4
	5	This program is free software; you can redistribute it and/or modify
	6	it under the terms of the GNU General Public License as published by
	7	the Free Software Foundation; either version 3 of the License, or
	8	(at your option) any later version.
	9
	10	This program is distributed in the hope that it will be useful,
	11	but WITHOUT ANY WARRANTY; without even the implied warranty of
	12	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	13	GNU General Public License for more details.
	14
	15	You should have received a copy of the GNU General Public License
	16	along with this program. If not, see <http://www.gnu.org/licenses/>. */
	17
	18	#ifndef COMMON_ARRAY_VIEW_H
	19	#define COMMON_ARRAY_VIEW_H
	20
	21	#include "traits.h"
	22	#include <type_traits>
	23
	24	/* An array_view is an abstraction that provides a non-owning view
	25	over a sequence of contiguous objects.
	26
	27	A way to put it is that array_view is to std::vector (and
	28	std::array and built-in arrays with rank==1) like std::string_view
	29	is to std::string.
	30
	31	The main intent of array_view is to use it as function input
	32	parameter type, making it possible to pass in any sequence of
	33	contiguous objects, irrespective of whether the objects live on the
	34	stack or heap and what actual container owns them. Implicit
	35	construction from the element type is supported too, making it easy
	36	to call functions that expect an array of elements when you only
	37	have one element (usually on the stack). For example:
	38
	39	struct A { .... };
	40	void function (gdb::array_view<A> as);
	41
	42	std::vector<A> std_vec = ...;
	43	std::array<A, N> std_array = ...;
	44	A array[] = {...};
	45	A elem;
	46
	47	function (std_vec);
	48	function (std_array);
	49	function (array);
	50	function (elem);
	51
	52	Views can be either mutable or const. A const view is simply
	53	created by specifying a const T as array_view template parameter,
	54	in which case operator[] of non-const array_view objects ends up
	55	returning const references. Making the array_view itself const is
	56	analogous to making a pointer itself be const. I.e., disables
	57	re-seating the view/pointer.
	58
	59	Since array_view objects are small (pointer plus size), and
	60	designed to be trivially copyable, they should generally be passed
	61	around by value.
	62
	63	You can find unit tests covering the whole API in
	64	unittests/array-view-selftests.c. */
	65
66	namespace gdb {
67
68	template <typename T>
69	class array_view
70	{
71	/* True iff decayed T is the same as decayed U. E.g., we want to
72	say that 'T&' is the same as 'const T'. */
73	template <typename U>
74	using IsDecayedT = typename std::is_same<typename std::decay<T>::type,
75	typename std::decay<U>::type>;
76
77	/* True iff decayed T is the same as decayed U, and 'U *' is
78	implicitly convertible to 'T *'. This is a requirement for
79	several methods. */
80	template <typename U>
81	using DecayedConvertible = gdb::And<IsDecayedT<U>,
82	std::is_convertible<U , T >>;
83
84	public:
85	using value_type = T;
86	using reference = T &;
87	using const_reference = const T &;
88	using size_type = size_t;
89
90	/* Default construction creates an empty view. */
91	constexpr array_view () noexcept
92	: m_array (nullptr), m_size (0)
93	{}
94
95	/* Create an array view over a single object of the type of an
96	array_view element. The created view as size==1. This is
97	templated on U to allow constructing a array_view<const T> over a
98	(non-const) T. The "convertible" requirement makes sure that you
99	can't create an array_view<T> over a const T. */
100	template<typename U,
101	typename = Requires<DecayedConvertible<U>>>
102	constexpr array_view (U &elem) noexcept
103	: m_array (&elem), m_size (1)
104	{}
105
106	/* Same as above, for rvalue references. */
107	template<typename U,
108	typename = Requires<DecayedConvertible<U>>>
109	constexpr array_view (U &&elem) noexcept
110	: m_array (&elem), m_size (1)
111	{}
112
113	/* Create an array view from a pointer to an array and an element
114	count. */
115	template<typename U,
116	typename = Requires<DecayedConvertible<U>>>
117	constexpr array_view (U *array, size_t size) noexcept
118	: m_array (array), m_size (size)
119	{}
120
121	/* Create an array view from a range. This is templated on both U
122	an V to allow passing in a mix of 'const T ' and 'T '. */
123	template<typename U, typename V,
124	typename = Requires<DecayedConvertible<U>>,
125	typename = Requires<DecayedConvertible<V>>>
126	constexpr array_view (U begin, V end) noexcept
127	: m_array (begin), m_size (end - begin)
128	{}
129
130	/* Create an array view from an array. */
131	template<typename U, size_t Size,
132	typename = Requires<DecayedConvertible<U>>>
133	constexpr array_view (U (&array)[Size]) noexcept
134	: m_array (array), m_size (Size)
135	{}
136
137	/* Create an array view from a contiguous container. E.g.,
138	std::vector and std::array. */
139	template<typename Container,
140	typename = Requires<gdb::Not<IsDecayedT<Container>>>,
141	typename
142	= Requires<std::is_convertible
143	<decltype (std::declval<Container> ().data ()),
144	T *>>,
145	typename
146	= Requires<std::is_convertible
147	<decltype (std::declval<Container> ().size ()),
148	size_type>>>
149	constexpr array_view (Container &&c) noexcept
150	: m_array (c.data ()), m_size (c.size ())
151	{}
152
153	/* Observer methods. Some of these can't be constexpr until we
154	require C++14. */
155	/constexpr14/ T *data () noexcept { return m_array; }
156	constexpr const T *data () const noexcept { return m_array; }
157
158	/constexpr14/ T *begin () noexcept { return m_array; }
159	constexpr const T *begin () const noexcept { return m_array; }
160
161	/constexpr14/ T *end () noexcept { return m_array + m_size; }
162	constexpr const T *end () const noexcept { return m_array + m_size; }
163
164	/constexpr14/ reference operator[] (size_t index) noexcept
165	{ return m_array[index]; }
166	constexpr const_reference operator[] (size_t index) const noexcept
167	{ return m_array[index]; }
168
169	constexpr size_type size () const noexcept { return m_size; }
170	constexpr bool empty () const noexcept { return m_size == 0; }
171
172	private:
173	T *m_array;
174	size_type m_size;
175	};
176
d5f4488f SM	177	/* Compare LHS and RHS for (deep) equality. That is, whether LHS and
	178	RHS have the same sizes, and whether each pair of elements of LHS
	179	and RHS at the same position compares equal. */
	180
	181	template <typename T>
	182	bool
	183	operator== (const gdb::array_view<T> &lhs, const gdb::array_view<T> &rhs)
	184	{
	185	if (lhs.size () != rhs.size ())
	186	return false;
	187
	188	for (size_t i = 0; i < lhs.size (); i++)
	189	if (!(lhs[i] == rhs[i]))
	190	return false;
	191
	192	return true;
	193	}
	194
	195	/* Compare two array_views for inequality. */
	196
	197	template <typename T>
	198	bool
	199	operator!= (const gdb::array_view<T> &lhs, const gdb::array_view<T> &rhs)
	200	{
	201	return !(lhs == rhs);
	202	}
	203
7c44b49c PA	204	} /* namespace gdb */
	205
	206	#endif